Grain-harvester.



J. F. APPLEBY.

GRAIN HARVESTER.

APPLICATION FILED SEPT.22. I913.

Patented June 1, 1915.

6 SHEETSSHEET l.

Wages;

J. F. APPLEBY.

GRAIN HARVESTER.

APPLICATION FILED SEPT.22. 1913.

Patented J 11110 1, 1915.

6 SHEETSSHEET 2.

.I. F. APPLEBY.

GRAIN HARVESTER.

APPLICATION FILED sEPT,22. 1913.

Patented June 1, 1915.

6 SHEETS*SHEET 3.

ME 677W."

J. F. APPLEBY.

GRAIN HARVESTER.

APPLICATION FILED SEPT.22, 1913.

Patented June 1, 1915,

E SHEETSSHEET 4.

1. FE APPLEBY.

GRAIN HARVESTER.

APPLICATION FILED sEPT.22, 1913.

Patented June 1, 1915.

6 SHEETSSHEET 5.

J. F. APPLEBY.

Patented June 1, 1915.

6 SHEETS-SHEET 6.

d 5 7 film L65 J65? la '70@ on H 1 J55 o JOHN F. APPLEBY, OF DAVENPORT, IOWA, ASSIGNOR OF ONE-HALF '10 PETER D.

MIDDLEKAUFF, OF CHICAGO, ILLINOIS.

GRAIN-HARVESTER.

Specification of Letters Patent.

Patented June 1, 1915.

Application filed September 22, 1913. Serial No. 791,006.

T all Io/mm it may concern Be it known that I, JOHN F. APPLEBY, citizen of the United States, residing at Davenport, in the county of Scott and State of Iowa, have invented a certain new and useful Improvement in Grain-Harvesters, of which the following is a full, clear, concise, and exact description, reference being had to the accompanying drawings, forming a part of this specification.

My invention relates to grain harvesters and has for one of its objects the provision of means for depositing bound bundles of grain upright with the stub ends thereof upon the ground and has for another of its objects the provision of means for assem bling a number of bundles into a shock which, in accordance ith another feature of the invention, is preferably bound and tied, the grain being preferably bound in shocks before it is deposited upon the ground in accordance with the first object of the invention.

In the drawings Figure 1 and Fig. 1 together illustrate the machine of the invention in rear elevation, Fig. 1 showing a laterally projecting portion of the machine, which portion was omitted from Fig. 1 for lack of space; Fig. 2 is a view of certain portions of the machine taken in the direction of arrow 2 in Fig. 1; Fig. 3 is a front elevation of a part of the equipment as it appears in Fig. 1; Fig. 4 is a sectional view on line 4: 4 of Fig. 13; Fig. 5 is a sectional plan view on line 5 5 of Fig. 1; Fig. 6 is a sectional view on line (3 6 of Fig. 2; Fig. 7 a plan view of the structure illustrated in Fig. (3: Fig. 8 is a sectional view on line 8 8 of Fig. 9; Fig. 9 is a sectional view on line 9 9 of Fig. 8; Fig. 10 is a side view of a part of the structure shown in Fig. 1; Fig. 11 is a plan view of the mechanism illustrated in Fig. 10; Fig. 12 is a sectional view on line 12 1.2 of Fig. 10; Fig. 13 is a reverse view of a part of the structure appearing in Fig. 3; Fig. 14 is a plan view of a part of the mechanism illustrated in Fig. 5; Fig. 15 is a sectional viewon line 15 15 of Fig. 5; Fig. 16 is a sectional view on line 16 16 of Fig. 14: Fig. 17 is a sectional view on line 17 17 of Fig. 14; Fig. 18 is a sectional View on line 18 18 of Fig. 14; Fig. 19 is a view showing parts of the machine in the same direction in which Fig. 2 is taken parts appearing in Fig. 19 that are omitted in Fig.

2; Fig 20 is a plan view of the structure appearing in Fig. 19; and Fig. 21 shows a detail of construction at the hub of one of the traction wheels. In several of the figures parts are omitted ness of illustration of the parts which remain.

Like parts are indicated by similar charactors of reference throughout the different figures.

Many characteristics of the grain harvester herein shown are old and well known to those skilled in the art and the full description of such old features will not be required for an understanding of the invention.

The machine includes a well known grain supporting platform 1 upon which is mounted well known conveyer mechanism 2 for transferring the grain cut by well known sickle mechanism to the grain conveyer equipment at, the grain being deposited by the usual means upon the conveyor 2 after it has been cut by the sickle.

The grain is discharged from the con \eyer equipment 4 upon the inclined binder deck along which the grain descends by gravi v to the binding mechanism, such de-' scent being aided by the usual alternately operating packer arms 6. The binder deck 5 is provided with the usual cover 7 which acts to deflect grain upon the deck 5 which forcibly carried beyond the plane of such deck by the conveyer. The usual hastening roller 8 is employed to aid the grain to bridge the gap (in the descent of the grain) intervening between the conveyor 4 and the deck 5. The grain is arrested in its descent by an arm 9 normally positioned in the path of the grain, this arm being maintained in this position until the packer arms 6 have packed suilicient grain against the arm 9 to occasion that degree of pressure which will cause the arm 9 to yield. hen the arm 9 yields. as is well known by those skilled in the art, binding mechanism is set into operation for binding the bundle for the sake of clearwhich has been accumulated against the arm .'this binding operation being finished after the arm has been moved slightly away from its normal position, the arm 9 continuing its movement from its normal position to discharge the tied bundle. After the bundle has been tied it descends, such descent being aided by the discharge arms 10.

In accordance with my present invention the bundles are discharged within a loop of twine or string 11 and are supported by outsetting arms 12, 13 constituting an outsetting support for the deposited bundles. When the predetermined number of bundles has been accumulated all but one of these bundles are within the lower part of the loop and the last bundle is still pressing against the arm 9. This last bundle is tied substantially simultaneously with the tying of the ends of the loop string 11 about the six previously discharged bundles and about the bundle still pressing against the arm 9, the loop 11 and the bundles surrounded thereby being drawn, during the loop tying operation, substantially to the position indicated by the dotted line 11 in Fig. 1. The loop 11 is thus tightly tied about the seven bundles (or any other predetermined number of bundles) whereafter the twine or string leading to the loop is severed preparatory to forming another loop to bind a new shock of bundles. The tied shock of bundles is now free to be discharged from the shock support 12, 13 and in being discharged the sectionof this support comprising the fingers 13 is elevated in the plane of travel of the harvester to tip the shock with the butt ends of the grain upon the ground. the section of the support comprising the fin gers 12 being withdrawn to permit of this dumping operation. After the shock has been tipped end on upon the ground the section of the support comprising the fingers 13 is rotated reaiwvardly out of the path of the standing shock whereafter the parts 12 and 13 are repositioned to receive the next shock.

The mechanism for tying knots in twine or string around the individual bundles is well known by those skilled in the art and will not be generally described. The power for operating the knotter is primarily supplied from a shaft 14: driven by a pinion 15 in mesh with a spur gear 16 rotating with one of the traction wheels 17. Power is communicated from the shaft 14 by beveled gearing 13 to the shaft 19, the shaft 19 operating sprocket wheel 20 which drives the sprocket chain 21. The shaft 19 conveys power to all of the operating parts of the harvester including the knotter. The chain 21 drives the sprocket wheel 22 that is in fixed relation to a spur gear 23 (the wheels 22 and being upon the same shaft 23 in mesh with an intermediate spur gear 24 that is in turn in mesh with a spur gear 25 upon the packer crank shaft 26 upon which the packers 6 are mounted whereby this shaft 26 is operated alternately to apply the packers (3. The packers 6 are loose upon the shaft 26 and are connected at their lower ends by links 27 with an element 28 of the usual tripping mechanism that normally permits the arm 9 to remain in the position shown in Fig. 1 but which is caused to yield when the pressure afforded by the accumulated grain is increased to a sufiicient extent whereupon the arm 9 is tripped. Further description of these features is not required as this particular mechanism is old and well known. The shaft 23 is connected by miter gearing 29 (Fig. 2) with shaft 30 which is connected by bevel gears 31, 32 with shaft 33. The gear 32 has crank connection at 34 with a pitman 35 which is connected at its lower end with a crank 36 fixed upon a shaft 37 upon which the needle 38 for tying the grain into bundles is fixedly mounted. The pitman 35 causes the shaft 37 and the needle 38 it carries to oscillate. This oscillation occurs.however, only when a bundle is to be bound, to which end the structure of my Patent 594.812, of December 7,1897, may be adapted. The gear wheel 32 has its teeth discontinued at one portion as indicated in Fig. 4, that is the gear 32 is mutilated at one portion of its periphery so as to be relieved of engagement with the gear 31 at this point. A cam 39 (Fig. 13) operates upon a cam roller 40 upon the outer end of a cam lever 11 fixed upon shaft 42, upon which shaft an arm 13 is also fixed, the outer end of this latter arm being in connection with a plunger rod 414: whose lower end is provided with a nut or enlargement -15 in compressing engagement with a spring 46. The frame 17 for the spring 46 is connected by means of a link s3 with a holding pawl -19 whose nose is receivable within a notched lug 5O fixed on the wheel When the requisite amount of grain has been pressed against the compressor 9, a sufficient pressure has been exerted upon this compressor 9 by the packers 6 to depress the frame 47 against the pressure of the spring 46 sufliciently to cause the link 18 to withdraw the pawl 49 from engagement with the lug 5O whereupon the spring 16 will operate through the cam roller 10 and a cam 39 rapidly to turn the bevel gear 32 in the direction indicated by the arrow in Fig. 13 suiliciently to reestablish engagement between this bevel gear and the bevel pinion 31 whereupon this bevel pinion 31 (which is constantly rotating) is effective to oscillate the shaft 37 and the needle 33 fixed upon the shaft. \Vhen the needle 38 is oscillated it passes twine about the bundle and presents the same to a knotter, all as is well understood by those skilled in the art and which will require no particular description.

The mechanism which imparts motion to the needle 38 for passing twine around the bundles also is adapted to transmit power to the needle 51, the same shaft 37 being preferably employed for this latter purpose, the needle 51 operating to pass twine around a collection of bundles to form the loop 11 as indicated in Fig. 1, it being understood that this loop is enlarged each time a'bundleis inserted therein. The needle 51, however, is only to operate after the predetermined number of'bundles has been receivedin the loop 11, on which account a'clutch mechanism is employed that normally disconnects the nee'dl'e 51 from the shaft 37 but which clutch mechanism isbrought intoplay, when the-shock is to be bound, which shock bindingoperation occurs when the last bundle that-isito be'included in the shock is being bound. In the example chosen the needle 38 operatesseven times (to bindseven bundles) and the needle 51 operates in unison'with the needle 38 in'the' seventh operation of the needle 38, when the shook'is'to bebound. lhe clutch mechanism that may beemployed for this purpose is illustrated in detail in Figs. 14 to 18 inclusive, where the needle 51 is shown as being provided with an-elongated hub 52'n'ormally free of the shaft 37, it being understood that the shaft 37 is provided with suitable bearings such as those indicated at'53' and 54. lhehub 52 is slotted'to one'side of the shaft 37 asindicated at 55 to permit a-pin 56- to move back and forth transversely of the shaft 37, the clutch lever 57 fixedly carryingv the guide pin 56. A spring'58 ishoused'within an extensionof the hub 52-and presses upon the clutch lever 57 on one side of the shifting pin 56. One end of the clutch lever 57 carries a cam roller 58 adapted to be operated by a cam projection 59 to'move the clutch lever 57 in aclockwise direction (Fig. 14) thereby to move the guide pin 56 forwardly in its slot 55, the end of the clutch lever 57 opposite the roller 58 then riding upon the lower surface of the hub60 belonging to the needle 38. The range of operation of the needle is indicated in Fig. 17 between the full line and dotted line illustrations of the needle 38 and when" the needle "38 bringsthe slot 61 into-register with the clutch lever 57 at the time the pin -56has been shifted forwardly such clutchlever 57 will drop-into'the hub slot 61 so that the next oscillating movement of the needle 38' is accompanied by a similar movement of the needle 51 in unison. After the elutch lever 57 has been dropped into the slot 61, the cam roller 58 rides upon the stationary cam 62 during the oscillating movement of the needle 51, the cam 62 having an arcual length sufficient to maintain the needles in couple during their simultaneous operation. The cam 59 is to be e'fiective to'coupie the needles 38 and 51 during each seventh operation of the needle 38. To this end there isp'rovi'ded a ratchet 63 (which also carries'the cam 59) rotatably mounted upon'the shaft 37, this ratchet having as many tooth notches 64'as'there are bundles to be included in-e'ach shock. pawl carrier 65 is fixed upon the shaft 37 there being a spring'pressed pawl 66 supported byithe carrier'65 and pressed toward the ratchet 63. The pawlcarrier'65 being fixed upon the shaft 37, is-oscillated with the needle 38 so as toturn'the ratchet 63 one-seventh of a revolution for each complete oscillation of theneedle-38 whereby, when the seventh oscillation ofthe needle 38 occurs the-"cams 59 and '62 cotiperate in the manner which has been describedto-cause the needle 51 to be oscillated with the needle 38 in the seventh oscillation of the latter. If it, should be desired to add a bundle to-the shock the tooth space next in linewith the pawl 66 should be covered as by means of a lip 67 carried upon the upper end of an arm 68 rotatably-mounted upon and with respect to the shaft 37 thisarm-beingi provided with a slot 69 at its other end inwhich aspring 70 is disposed for thepurpose of so positioning thearm' 68 and the lip 67 as to render the latter'normallylinefi'ective; When the lip is to become edective'for itspur pose the arm 68 rs moved in a elookwisedirection against the force of the spring 70 forwhich purpose a string 71 may beattached'to the arm 68.

A signal is preferably conveyed before the last bundle is bound-so that the operator may, if he desires,manipulate the lip 67 to add one or more bundles to the shock before it is bound. The signal device may include a gong 7 2 to be impinged upon by a'hammer 73 projecting from a pivotedsupport 74. The support 74 is providedwith a tail' piece 75 under which the cam 59 rides, the spring 76 striking the'hammer 73 upon the gong 72 whenthe cam 59 has cleared the tailpiece 75. The element 77 upon which the cam 62 is provided is preferably downwardly extended to rest upon a framep-iece 78 whereby the shaft 37 which turns upon the part 77, is supportedin' part. 'Theong=72 is also mounted'upon the element 7 and'the guide stud 79 is also mounted upon the element 77 whereby the parts are held in proper relation.

The twine ll-is' passed through the eye of theneedle 51 and a loop is formed'in this twine in position to receive bound bundles, thetwine being drawnthrough the needle 51 :asthe bundles are supplied to the loop so that the loop will correspondingly enlarge as the bundles accumulate. The upper end of the loop string is secured to the knotter cord or twine holder which is similar to the knotter cord holder of the well known Acme knotterinvented and patented by me. Such a knotter cord or twine holder is exemplified in'Patent- 567,932- issued to me September 15, 1896, and is indicated =at'80 in'lEigs. 1 and 2, The knotting-mechanism for tying knots in the twine bound about the shocks includes a tripping" pawlhavinga tail 81 engaged by ward stroke. This, pawl structure hasthree members, 82, 83 and 84. The pawl 82 is a holding pawl for preventing the segmental gear 85 from rotating in a counter clockwise direction. The pawl 84 engages the tail 86 of pawl 87 to prevent the pawl actuating spring 88 from being effective upon the pawl 8 The bundle discharge arms 10 operate to discharge each bundle into the loop after such bundle has been tied. Each discharge arm 10 projects from an eccentric strap 89 working upon the periphery of an eccentric 90, the eccentrics 90 being fixed upon the shaft 33. Each eccentric strap has a stem 91 connected by a link 92 with a stationary anchorage 93. The eccentric 90 pertaining to the shocker knotter carries a roller 94 moving in the plane of the enlargement 95 (Fig. 7) projecting laterally from the dog tail 86 of the dog 87, though this enlargement 95 is normally out of the path of the roller 94. When the tail 81 is impinged upon by the shocker needle 51 when reaching the upper limit of its stroke, the holding pawl 84 is disengaged from the dog tail 86 so that the spring 88 will turn the dog 87 in a counterclockwise direction to bring the enlargement 95 within the path of the roller 94, a result which obviously occurs only when the shock is being bound and tied. VJ hen the tail 81 is raised by the needle 51, the pawls 82 and 83 are also lifted to permit the segmental rack 85 to work, the pin 94 operating to move the segmental rack 85 in a counter-clockwise direction (Fig. 6) through the intermediation of the enlargement 95 and the dog 87 which is pivotally mounted upon the segmental gear 85. Another segmental gear 96 is fixed with respect to the segmental gear 85. After the segmental gear 85 has been freed in the manner described, the gears 85 and 96 coiiperate to tie the knot in the loop 11 about the shock, this tying operation being well known by those skilled in the art, it being understood that the parts 85 and 96 correspond in their function to parts 30 and 31 of my Patent 567 ,932, dated September 15, 1896. ln'fact, the knotting and twine severing mechanism employed for tying the loop 11 and severing the twine is taken, in my machine, from the prior art which is exemplified in my Patent 567,932 and a detail description and illustration of such mechanism would therefore be superfluous herein.

After the loop 11 has been tied about the shock the shock is next turned upon end to rest upon the ground, a result which is accomplished by turning forwardly the shaft 97 which supports the fingers 13 in a plane co-incident with the plane of travel of the machine, while at the same time the fingers 12 are individually turned inwardly, rearwardly and downwardly to lie parallel with the machine, this result being accomplished by turning the shaft 98 upon which a crank 99 is carried, a pitman 100 connecting this crank with a bar 101 which is reciprocated by the pitman 100 parallel to the direction of travel of the machine. Each finger 12 has crank connection at 102 with the bar 101, these cranks being journaled in the outer ends of brackets 103 and having connection at their upper ends with the slide 101. The portions of the brackets 103 carrying the crank ends of the fingers 12 are bifurcated, the lower branches of these brackets being slotted as indicated at 104 whereby the fingers 12 may rise to ride over obstructions upon the ground while the fingers are in their lowered positions. After the fingers 13 have tipped the shock (marked 105 in Figs. 5 and 20) upon end, these fingers are rearwardly. and inwardly turned to clear the standing shock, a result which is accomplished by turning the elevated shaft 97 upon its axis. After the shock has been cleared the she fts 97 and 98 return the fingers 12 and 13 to their horizontal laterally projecting positions ready to receive the bundles of a new shock. The mechanism by which the shafts 97 and 98 are controlled in their operation includes said shaft 98 passing through the hub 107 of the wheel 17 and co-axial with the wheel and its hub. Upon this shaft 98 is journaled a lever 108 pivoted co-axially with the shaft 14, this lever 108 carrying a locking lever 109 connected by a link 110 with the holding pawl 111 working over the teeth of a rack 112 also concentric with the shaft 14. Incidentally it should be stated that by means of the lever 108 and the rack 112 the machine can be raised and lowered. The hub of the wheel 107 is fixed with respect to the sleeve 113, this sleeve being free to turn upon the sleeve 114 fixed with respect to the lever 108 and within which sleeve 114 the shaft 98 may turn. A clutch member 115 is in fixed relation to the sleeve 113 and the spur gear 16, the material relative endwise movement of the clutch member 115 and the wheel 107 with respect to the shaft 98 being prevented by collars 116. These characteristics are particularly shown in Figs. 8 and 21. The clutch member companion to clutch member 115 includes a clutch roller 117 rotatably mounted upon a clutch roller support 118 pivoted at 119 upon a bracket 120 which is fixed upon the shaft 98 by a clamping U-shaped belt 121. The clutch element 118 is turned upon its pivot 119 by the rotation of the shaft 122 which turns with but is slidable within the quill shaft 123. The shaft 122 is coupled with the clutch element 118 by a universal joint 124. The shaft 123 has fixedly attached thereto amarm 125 connected by a link 126 with an arm 127 fixed upon the quill shaft 128 within which the square end of the shaft 37 projects so that the shafts 37 and 128 are in telescoping engagement menses may turn with respect to the shaft 37 The 1 preferred arrangement is fully illustrated and includes the shaft 37 that has pin and slot connection 37 2 to prevent relative longitudinal movement of the shafts 37 and 37 but to permit the shaft 37 to turn with revspect to the shaft 37. The hub 52 carries a bracket 37 having a square hole at its outer end which snugly fits the shaft 3" whereby this shaft turns whenever hub 52 turns. When the needle 51 moves upwardly toward the lmotter the shafts 37 128, 123, and 122 are so turned as to throw the clutch roller 117 toward the clutch member 115. When the needle 51 is moving downwardly these shafts are so turned as to withdraw the roller 117 from the clutch member 115. Thus when the needle 51 is raised to take part in tying the twine about the shock the clutch elements and 118 are coupled and the shaft 98 is turned to turn the shaft 97 in the plane of travel of the machine with the results previously described. At the same time the crank 99 upon the shaft 98 shifm the shock supporting fingers 12 rearwardly, inwardly and downwardly as hitherto described. When the needle 51 returns the clutch elements 115-and 117 are separated whereupon the spring 129 connected with the'clutch element 118 by the link 130 operates to restore the shaft 98 to reposition the fingers 12 and 13 as indicated in F igs. 1 and 5 to receive fresh bundles of a new shock.

vThe fingers 12 and 13 are to be held in the withdrawn positions indicated in Fig. 20 during the time that the first bundle of a new shock is being accumulated to which end 1 employ a holding pawl 131 pivotally mounted upon a stationary support 132 and adapted to be engaged at its upper end by a detent 133.carried upon the support 118., this engagement of the elements 131 and 133 occurring when the needle 51 starts to return. The holding pawl 131 is provided with an elongated tail 131 (Fig. 19) which is connected by a link 135 with the crank 36 fixed upon the shaft 37 whereby the pawl 131 is positively moved in timed relation with the movement of the shaft 37. When the pawl 131 is released the spring 129 restores the clutch element 118 and the comtill till

plemental parts of the shocking mechanism to their initial positions.

A. roller 135 is carried upon the element 113 which is adapted to roll outwardly upon the cam 136 forming a continuation of the fined portion 132, this rolling of the cam roller 135 11 on the cam 136 occurring when the clutch e ements 115 and 117 are being separated. The cam 133 thereby forces the detent 133 into engagement with the holding pawl 131 to hold the fingers 12 and 13 in their withdrawn position that is illustrated that is while the fingers 12 and 13 are passing the shock that has been deposited upon the ground. After the deposited shock has been passed-the holding pawl 131 is lifted as hitherto described upon the binding of the first bundle of the new shoclr. 11s a supplemental precaution, a guard plate 137 is carried by the support, 132, this guard plate being of such areal length as to insure the maintenance of the engagement of the roller 117 with the clutch element 115 a proper interval of time. The surface 138 (Fig. 9) of the plate 137 takes part in directing the detent 133 into engagement with the holdin "pawl 131.

The shaft 97 turns upon an axially rotating shaft-139 mounted at its inner end upon the block 1410 fixed upon the shaft 98, the hollow shaft 97 turning upon the shaft 139 and with this shaft when the shaft 98 turns. The spring 111 is anchored at one end upon the block 140 and at its other end upon the hollow shaft 97, the function of the spring 141 being to return the normal outsetting position for receiving fresh bundles as indicated in Figs. 1 and 5. lln the outer end of the shaft 139 mounted a holding pawl 1 12 which serves to hold the latch 113 which is mounted to oscillate in a block 11-1- in turn fixedly mounted upon the hollow shaft 97. en

the pawl 112 thus engages the latch 14:3 the counter-clockwise direction to bring the shafts 97 and 139 horizontal. When the shaft 97 has been returned to its normal horizontal position (which happens while the first bundle of a new shock is being as sembled) the chain 1415 which connects the tail of the latch 113 with the frame of the machine, is slaclrened whereby the spring 111 is permitted to turn the shaft 97 in a manner to bring the pawl 112. in engagement with the latch 143, the latch and pawl being maintained in engagement until a new shock is to be deposited upon the ground, after which depositing action the latch and pawl are disengaged owing to the tightening of the chain 14:5 that will he followed by an oscillating movement of the latch 1413 that will withdraw the latch from the pawl, this result occurring when the shaft 98 turns the shaft 97 in a clockwise direction. When the elements 142 and 113 are thus uncoupled, the

chain 115 operates to turn the shaft 97 in a counter-clockwise direction when the shaft 97 -is being lowered to reposition the hugers 13 to receive the bundles in a new shock. To prevent the shafts 97 and 139 from dropping below the horizontal the shaft 139' is inturned at 1426 to strike the horizontally supported motion limiting frame piece 147.

While I have herein shown and particularly described the preferred embodiment of my invention 1 do not wish to be limited to the precise details of construction shown as changes may readily be made without departing from the spirit of the invention.

Having thus described my invention 1 claimas new and desire to secure by Letters Patent the following 1. A grain harvester including mechanism for assembling and tying grain in bundles; means for positioning a loop of string with the open end of the loop in position to receive tied bundles from the position where they are tied; tying mechanism for tying the grain into bundles; another tying mechanism for tying the loop about assembled bundles; mechanism common to the tying mechanisms for operating the same; means interposed between said common mechanism and the loop tying mechanism for omitting operations of the loop tying mechanism whereby the loop will not be tied until a plurality of bundles are received therein; a needle for presenting an end of each shock loop string to the loop tying mechanism;

- and means operated by said needle when moved to present a loop string end to the loop tying mechanism to adjust said interposed means to permit the loop tying mechanism then to operate.

2. A grain harvester including mechanism for assembling and tying grain in bundles; means for positioning-a loop of string with the open end of the loop in position to receive tied bundles from the position where they are tied; tying mechanism for tying the grain into bundles; another tying mechanism -for tying the loo string about assembled bundles; mechanism common to the tying mechanisms for operating the same; means interposed between said common mechanism and the loop tying mechanism for omitting'operations of the loop tying mechanism whereby the loop will not be tied until a plurality of bundles are received therein; a needle for presenting an end of each shock loop string to the loop tying mechanism; means operated by said needle when moved to present a loop string end to the loop tying mechanism'to adjust said interposed means to permit the loop tying mechanism then to operate; and means whereby the running gear of the harvester operates the aforesaid common mechanism. 3. A grain harvester including mechanism for assembling and tying grain inbiindles; mechanism for tying pluralities ofbundles menace into shocks; mechanism common to the tying mechanisms for operating the same; means interposed between said common mechanism and the shoclr tying mechanism for omitting operations of the shock tying mechanism whereby the shock will not be tied until it has received the proper number of bundles; a needle for presenting an end of a shock tying string to the shock tying mechanism; and means operated by said needle when moved to present an end of the shock tying string to the shock tying mechanism to adjust said interposed means to permit the shock tying mechanism then to operate.

i. A grain harvester including mechanism for assembling and tying grain in bundles; mechanism for tying pluralities of bundles into shocks; mechanism common to the tying mechanisms for operating the same; means interposed between said common mechanism and the shock tying mechanism for omitting operations of the shock tying mechanism whereby the shock will not be. tied until it has received the proper nuni- 80 ber of bundles; a needle for presenting an end of a shock tying string to the shock tying mechanism; means operated by said necdle when moved to present an end of the shock tying string tq the shock tying niccha- 9 nism to adjust said interposed means to permit the shock tying mechanism then to operate; and means whereby the running gear of the harvester operates said common mechanism.

56 A grain harvester including mechanism for assembling grain into bundles and ussembling bundles intoshocks; a shocl; carrier including laterally outsetting shock supporting arms; mechanism for rearwardly i folding a forward portion of the carrier to the adyacent side 0: the harvester in the deposit of a formed shock; and mechanism for lifting the rear portion of the carrier and also rearwardly folding this portion of the carrier to the adjacent side of the harvester to escape the deposited shock.

6. A. grain harvester including mechanism for assembling grain into bundles and .assembling bundles into shocks; a shock carrier including laterally outsetting shock supporting arms upon which the shock is horizontally supported; mechanism for rearwardly folding a forward portion of the carrier to the adjacent side of: the harvester in the deposit of a formed shock; and mechanism for lifting the rear portion of the carrier and also rearwardly folding this portion of the carrier to the adjacent side of the harvester to escape the deposited shoclr, there being means for enablin the rear portion of the carrier to tip the s ock to a vertical position before this rear portion is folded out of the way of the deposited shock.

*6. A grain harvester including mechanism for assembling grain into bundles and assembling bundles into shocks; a shock carrier including laterally outsetting shock supporting arms upon which the shock is horizontally supported; mechanism for rearwardly folding a forward portion of the carrier to the adjacent side of the harvester in the deposit of a formed shock; and mechanism for also rearwardly folding the rear portion of the carrier to the adjacent side of the harvester to escape the deposited shock, there being means for enabling the rear portion of the carrier to tip the shock to a Vertical position before this rear portion is folded out of the way of the deposited shock.

8. A grain harvester including mechanism for assembling grain into bundles and assembling bundles into shocks; a shock carrier including laterally outsetting shock supporting arms; mechanism for folding a forward portion of the carrier to the adjacent side of the harvester in the deposit of a formed shock; and mechanism for lifting the rear portion of the carrier and also folding this portion of the carrier to the adjacent side of the harvester to escape the deposited shock.

9. A grain harvester including mechanism for assembling grain into bundles and assembling bundles into shocks; a shock carrier including laterally outsetting shock supporting arms upon which the shock is horizontally supported; mechanism for folding a forward portion of the carrier to the adj acent side of the harvester in the deposit of a formed shock; and mechanism for lifting the rear portion of the carrier and also fold ing this portion of the carrier to the adjacent side of the harvester to escape the deposited shock, there being means .for enabling the rear portion of the carrier to tip the shock to a vertical position before this rear portion is folded out of the way of the deposited shock.

10. A grain harvester including mechanism for assembling grain into bundles and assembling bundles into shocks; a shock carrier including laterally outsetting shock supporting arms upon which the shock is horizontally supported; mechanism for folding a forward portion of the carrier to the adjacent side of the harvester in the deposit of a formed shock; and mechanism for also folding the rear portion of the carrier to the adjacent side of the harvester to escape the deposited shock, there being means for en 'abling the rear portion of the carrier to tip the shock to a vertical position before this rear portion is folded out of the Way of the deposited shock.

In witness whereof, I do hereunto subscribe my name this 18th day of Sept. A. D., 1913.

JOHN F. APPLEBY.

Witnesses HUGO ARZBERGER, W. CHAnwIoK.

Copies of this patent may be obtained for five cents each, by addressing the "Commissioner of JEatema, Waahington, D. G. 

